1. SIMS 213: User Interface Design & Development Marti Hearst Thurs, Feb 20, 2003

2. Slide adapted from James Landay Outline Low-fidelity prototyping Informal user interfaces Sketching user interfaces electronically

3. Slide adapted from James Landay Why Do We Prototype? Get feedback on our design faster –saves money Experiment with alternative designs Fix problems before code is written Keep the design centered on the user

4. Slide adapted from James Landay Fidelity in Prototyping Fidelity refers to the level of detail High fidelity ? –prototypes look like the final product Low fidelity ? –artists renditions with many details missing

5. Slide adapted from James Landay Low-fidelity Sketches

6. Slide adapted from James Landay Low-fi Storyboards Where do storyboards come from? –Film & animation Give you a “script” of important events –leave out the details –concentrate on the important interactions

8. Sketches for the Ink Chat System

9. Paper prototyping Main idea: –Sketch out prototypes of the interface on paper –Potential users “walk through” task scenarios using the paper interface –A designer “plays computer” –Change the design on-the-fly if helpful Widely practiced in industry –Sounds silly at first, but is surpringly effective –Helps people work together on the design Readings by Rettig, Cooper, Klee, Spool’s group –This discussion primarily follows Rettig’s article

10. Slide adapted from James Landay Why Use Low-fi Prototypes? Traditional methods take too long –sketches -> prototype -> evaluate -> iterate Can simulate the prototype –sketches -> evaluate -> iterate –sketches act as prototypes designer “plays computer” other design team members observe & record Kindergarten implementation skills –allows non-programmers to participate

11. Slide adapted from James Landay The Materials Large, heavy, white paper (11 x 17) 5x8 in. index cards Post-it notes Tape, stick glue, correction tape Pens & markers (many colors & sizes) Transparencies (including colored) Colorforms (toy stores) Scissors, X-acto knives, etc.

13. Slide adapted from James Landay Constructing the Model Set a deadline –don’t think too long - build it! Draw a window frame on large paper Put different screen regions on cards –anything that moves, changes, appears/disappears Ready response for any user action –e.g., have those pull-down menus already made Use photocopier to make many versions

14. Slide adapted from James Landay Preparing for a Test Select your participants –understand background of intended users –use a questionnaire to get the people you need –don’t use friends or family Prepare scenarios that are –typical of the product during actual use –make prototype support these (small, yet broad) Practice running the computer to avoid “bugs”

15. Slide adapted from James Landay Conducting a Test Three or Four testers (preferable) –greeter - puts users at ease & gets data –facilitator - only team member who speaks gives instructions & encourages thoughts, opinions –computer - knows application logic & controls it always simulates the response, w/o explanation –observer(s) - take notes & recommendations Typical session is approximately 1 hour –preparation, the test, debriefing

16. Slide adapted from James Landay Conducting a Test (cont.) Greet –get forms filled, assure confidentiality, etc. Test –facilitator hands written tasks to the user must be clear & detailed –facilitator keeps getting “output” from participant “What are you thinking right now?”, “Think aloud” –observe -> no “a-ha”, laugh, etc.

17. Slide adapted from James Landay Conducting a Test (cont.) Debrief –fill out post-evaluation questionnaire –ask questions about parts you saw problems on –gather impressions –give thanks

18. Slide adapted from James Landay Evaluating Results Sort & prioritize observations –what was important? –lots of problems in the same area? Create a written report on findings –gives agenda for meeting on design changes Make changes & iterate

19. Potential difficulties Interfaces with large focus on content –Dynamic or static; both are ill-suited Use word processor for large sets of text –For search/database applications Have pre-planned searches (not very realistic) Write up search results on the fly –Maybe have a printer nearby that can produced typed results Bottom line: can only prototype the main interaction this way; search needs to be hooked up to really test the search mechanism

20. Potential difficulties Interfaces that use animation / dynamic graphics –IUE’s answer: maybe it isn’t all that usable to have flash –Broader answer: Only testing the main functionality, not the finer points The interface should also work without the flash –Use transparencies, etc, for important rollovers.

21. Slide adapted from James Landay Advantages of Low-fi Prototyping Takes only a few hours –no expensive equipment needed Can test multiple alternatives Can change the design as you test –If users are trying to use the interface in a way you didn’t design it – go with what they think! Adapt! Allows designers to work together

22. Examples For more detail, see http://www.sims.berkeley.edu/courses/is213/s02/projects.html http://www.sims.berkeley.edu/courses/is213/s01/projects.html http://www.sims.berkeley.edu/courses/is213/s99/Projects.html

23. Sho, Shamma, von Krogh, Johnstad

24. Sho, Shamma, von Krogh, Johnstad

25. Sho, Shamma, von Krogh, Johnstad

26. Costa, Chopra, Orr, Stetson

27. Brandt, Falk, McMahon

29. Hernandez, Liang

31. Designing a content page Using low-fi techniques Combine low-fi paper prototyping and card sorting –Idea from Peter Merholtz Start with a page with all the features you might want Cut it up into pieces Have people arrange the components –One set of users sorts into groups, as in card sorting for categories –Another set of users lays out the information in a way that would work well for them given certain tasks.

32. Slide adapted from James Landay Drawbacks of Current Tools Require specification of lots of detail –must give specific instance of a general idea e.g., exact widgets, fonts, alignments, colors –designers led to focus on unimportant details –evaluators focus on wrong issues Take too much time to use –poor support for iterative design sketched interface took 5 times longer with traditional tool (no icons)

33. Slide adapted from James Landay Paper Sketches Advantages –support brainstorming –do not require specification of details –designers feel comfortable sketching Drawbacks –do not evolve easily –lack support for “design memory” –force manual translation to electronic format –do not allow end-user interaction

34. Slide adapted from James Landay The SILK System Sketching Interfaces Like Krazy

35. Slide adapted from James Landay Designing Interfaces with SILK 1) Designer sketches ideas rapidly with electronic pad and pen –SILK recognizes widgets –easy editing with gestures 2) Designer or end-user tests interface –widgets behave –specify additional behavior visually 3) Automatically transforms to a “finished” UI

36. Slide adapted from James Landay Specifying Behaviors Storyboards –series of rough sketches depicting changes in response to end-user interaction Expresses many common behaviors beforeafter Sequencing behavior between widgets

37. Slide adapted from James Landay SILK Storyboards Copy sketches to storyboard window Draw arrows from objects to screens Switch to run mode to test SILK changes screens on mouse clicks

39. Slide adapted from James Landay DENIM: Designing Web Sites by Sketching Early-phase information & navigation design Integrates multiple views –site map – storyboard – page sketch Supports informal interaction –sketching, pen-based interaction